Protective effect of vitamin E on fetal distress induced by ischemia of the uteroplacental system in pregnant rats

The effect of dietary vitamin E on the fetal ischemic distress induced by clamping the uterotubal vessels of pregnant rats was studied. The fetal heart rate was measured by the pulsed doppler technique as an index of fetal distress induced by ischemia. On reperfusion after clamping the vessels for 9 min, the decreased fetal heart rate was restored to normal rapidly and completely in the E-supplemented group, but slowly and incompletely in the E-deficient and control groups. On reperfusion after ischemia, the amounts of lipid peroxides, measured as thiobarbituric acid (TBA)-reactive substances, were greatly increased in the fetal brain and liver and in the placenta of in the E-deficient and control groups, but not in the E-supplemented group. The vitamin E concentrations in fetal tissues were less than 10% of those in the maternal tissues. Significant differences were found in the vitamin E concentrations in the maternal serum and liver in the three groups of rats given diet containing different amounts of vitamin E for 2 weeks. No significant differences were found between the vitamin E-deficient and control groups in the levels of vitamin E in the fetal brain and liver and the placenta, but these levels were significantly lower than those in the E-supplemented group.     

Effects of long-term vitamin E deficiency and restoration on rat hepatic peroxisomes

Effects of vitamin E deficiency and its restoration on biochemical characteristics of hepatic peroxisomes were studied. Rats were maintained on the vitamin E-deficient diet for 25 weeks and then on a diet supplemented with vitamin E for 5 weeks. Blood hemolysis by hydrogen peroxide and lipid peroxidation in the liver increased markedly in vitamin E-deficient rats. The former returned to the control level after the resupplying of vitamin E, but the latter did not. Of liver peroxisomal enzymes, the activities of catalase, D-amino-acid oxidase and urate oxidase decreased in vitamin E-deficient rats. On the other hand, activities of fatty acyl-CoA oxidase and carnitine acetyltransferase increased significantly in vitamin E-deficient rats. All activities of these peroxisomal enzymes were restored to the control levels in vitamin E-supplemented rats. The activities of the mitochondrial, lysosomal and microsomal enzymes tested showed no apparent change except that the change of mitochondrial palmitoyltransferase was shown to be similar to that of peroxisomal fatty acid oxidation. These results were also supported by cell fractionation techniques. Following the methods of aqueous polymer two-phase systems, the characteristics of peroxisomal surface membranes altered in respect of their hydrophobicity, but not in respect of the surface charge of peroxisomal membranes. These results indicate that peroxisomal functions, especially those of the fatty acid oxidation system, change their activities more sensitively than other intracellular organelles in response to the condition of vitamin E deficiency.     

Free Radical-Induced Liver Injury. I. Effects of Dietary Vitamin E Deficiency on Triacylglycerol Level and its Fatty Acid Profile in Rat Liver

Effects of dietary vitamin E deficiency on the fatty acid compositions of total lipids and phospholipids were studied in several tissues of rats fed a vitamin E-deficient diet for 4, 6, and 9 months. No significant differences were observed between the vitamin E deficiency and controls except in the fatty acid profiles of liver total lipids. Triacylglycerol (TAG) accumulation was found in the liver of rats fed a vitamin E-deficient diet. The levels of TAG-palmitate and -oleate increased particularly in the liver from such animals. The fatty acid compositions of hepatic phospholipids were not affected by the diet. Increased TAG observed in the liver of rats fed a vitamin E-deficient diet was restored to normal when the diet was supplemented with 20 mg α-tocopheryl acetate/kg diet. These findings indicate that dietary vitamin E deficiency causes TAG accumulation in the liver and that the antioxidant, vitamin E, is capable of preventing free radical-induced liver injury.     

Generation of prostacyclin-like substance and lipid peroxidation in vitamin E-deficient rats

Endogenous generation of prostacyclin (PGI₂)-like substance and lipid peroxidation were studied in the aorta of rats fed on vitamin E-deficient diet and/or vitamin E-supplemented one for 4 to 10 months after they were weaned at 4 weeks. PGI₂-like substance was produced by the incubation of the aortic ring in pH 9.0 borate-buffered saline and was estimated by comparison of its antiaggregatory activity with that produced by known amounts of synthetic PGI₂. Thiobarbituric acid-reacting substance (TBARS) was determined as an indicator of lipid peroxidation. The generation of PGI₂-like substance was significantly reduced in rats fed on vitamin E-deficient diet for 8 and 10 months as compared with that in the animals fed on vitamin E-supplemented one for the same period (p<0.001). Mean concentration of TBARS in the aortae of rats fed on vitamin E-deficient diet for 10 months was significantly higher than that of the animals fed on vitamin E-supplemented diet for the same feeding period (p<0.001). These alterations in the aortae of rats fed on vitamin E-deficient diet were corrected by feeding them on vitamin E-supplemented diet for subsequent 2 months.     

Modulation of Platelet thromboxane A2 and arterial prostacyclin by dietary vitamin E

Platelets from vitamin E-deficient and vitamin E-supplemented rats generate the same amount of thromboxane A2 (TxA2) when they are incubated with unesterified arachidonic acid. Platelets from vitamin E-deficient rats produced more TxA2 than platelets from vitamin E-supplemented rats when the platelets are challenged with collagen. Arterial tissue from vitamin E-deficient rats generates less prostacyclin (PGI2) than arterial tissue from vitamin E- supplemented rats. The vitamin E effect with arterial tissue is observed when the tissue is incubated with and without added unesterified arachidonic acid. These data show that arterial prostacyclin synthesis is diminished in vitamin E-deficient rats. Vitamin E, in vivo, inhibits platelet aggregation both by lowering platelet TxA2 and by raising arterial PGI2.     

Influence of vitamin E on polyamine metabolism in ozone-exposed rat lungs

The influence of vitamin E (E) on lung polyamine metabolism of rats exposed to ozone (O3) was examined. Rats fed diets wither E-deficient or supplemented with 1000 IU E/kg were exposed to 0.5 +/- 0.05 ppm O3 or filtered room air continuously for 5 days. They were then sacrificed and their lungs were analyzed for biochemical changes. Lung E content was strongly associated with the dietary level, and increased (36%, P less than 0.05) after O3 exposure only in E-supplemented rats. Lung polyamine metabolism was not affected in the air-control rats by E level, but increased after O3 exposure in both dietary groups. The activities of ornithine decarboxylase and S-adenosylmethionine decarboxylase were elevated above air controls. However, the increases were significant only for E-deficient rats when compared to E-supplemented rats. After O3 exposure, putrescine increased significantly in both dietary groups; spermidine increased but was significantly higher only in the E-deficient group; and spermine remained unchanged in both dietary groups. Elevated E content of supplemented rat lungs after O3 exposure may represent its mobilization under oxidant stress. Increased polyamine metabolism of E-deficient rats suggests either a greater sensitivity to injury by O3 or a possible antioxidant function for polyamines compensating for E deficiency.     

Dietary vitamins A and E influence retinyl ester composition and content of the retinal pigment epithelium

Experiments were conducted to determine the influence of dietary levels of vitamin A and alpha-tocopherol on the amounts and composition of retinyl esters in the retinal pigment epithelium of light-adapted albino rats. Groups of rats were fed diets containing alpha-tocopherol and either no retinyl palmitate, adequate retinyl palmitate, or excessive retinyl palmitate. Other groups of rats received diets lacking alpha-tocopherol and containing the same three levels of retinyl palmitate. Retinoic acid was added to diets lacking retinyl palmitate. After 27 weeks, the animals were light-adapted to achieve essentially total visual pigment bleaches, and the neural retinas and retinal pigment epithelium-eyecups were then dissected from each eye for vitamin A ester determinations. Almost all of the retinyl esters were found in the retinal pigment epithelium-eyecup portions of the eyes, mainly as retinyl palmitate and retinyl stearate. Maintaining rats on a vitamin A-deficient, retinoic acid-containing diet led to significant reductions in retinal pigment epithelial retinyl ester levels in rats fed both the vitamin E-supplemented and vitamin E-deficient diets; contrary to expectations, the effect of dietary vitamin A deficiency was more pronounced in the vitamin E-supplemented rats. Vitamin A deficiency in retinoic acid-maintained animals also led to significant reductions in retinyl palmitate-to-stearate ester ratios in the retinal pigment epithelia of both vitamin E-supplemented and vitamin E-deficient rats. Excessive dietary intake of vitamin A had little, if any, effect on retinal pigment epithelial retinyl ester content or composition. Vitamin E deficiency resulted in significant increases in retinal pigment epithelial retinyl palmitate content and in palmitate-to-stearate ester ratios in rats fed all three levels of vitamin A, but had little effect on retinal pigment epithelial retinyl stearate content. In other tissues, vitamin E deficiency has been shown to lower vitamin A levels, and it is widely accepted that this effect is due to autoxidative destruction of vitamin A. The increase in retinal pigment epithelial vitamin A ester levels in response to vitamin E deficiency indicates that vitamin E does not regulate vitamin A levels in this tissue primarily by acting as an antioxidant, but rather may act as an inhibitor of vitamin A uptake and/or storage. The effect of vitamin E on pigment epithelial vitamin A levels may be mediated by the vitamin E-induced change in retinyl palmitate-to-stearate ratios.     

The effect of dietary vitamin E and beta-carotene on oxidation processes in the rat testis

The effects of dietary vitamin E and beta-carotene were studied on enzymes involved in arachidonic acid metabolism and other related enzymes in the rat testis. Groups of rats were fed various soybean oil-based semi purified diets. Group 1 was fed a vitamin E-supplemented diet (+E - beta); Group 2 was fed a beta-carotene-supplemented diet (-E + beta); Group 3, the control group (-E - beta) was fed a vitamin E-deficient diet; and Group 4, the standard diet group (S), was fed vitamin E plus beta-carotene-standard diet. Soybean oxidized oil was added to the three diet groups - (+E - beta), (- E + beta) and (- E - beta), whereas the diet of S group contained non-oxidized oil. After 8 weeks rats were killed, blood and testis samples were collected for biochemical determinations. Vitamin E deficiency caused significant increase in testis thiobarbituric acid value and activities of testis NADPH oxidase, testis 15-lipoxygenase and in plasma pyruvate kinase. In contrast, significant decreases were observed in activity of testis prostaglandin synthetase, compared with antioxidant-supplemented diet groups. We also found a significant increase in 15-lipoxygenase activity in (- E + beta) diet group, compared with (- E - beta) diet group. Fatty acid analysis of testis parenchyma indicated decrease in palmitate (16:0) and arachidonate (20:4(n - 6)), and increase in oleate (18:1(n-6)) linoleate (18:2(n - 6)) and linolenate (18:3(n - 3)), when compared (-E - beta) diet group with vitamin E-supplemented diet groups. The results suggest that dietary vitamin E has a role in both enzymatic and non-enzymatic peroxidation of polyunsaturated fatty acids in the testis.     

Effect of dietary vitamin E and Santoquin on regenerating rat liver

The influence of dietary vitamin E and Santoquin on lipid peroxidation and liver regeneration in partially-hepatectomized rats was studied. Rats were fed either a basal 10% tocopherol-stripped corn oil diet, the basal diet plus 40 mg dl-alpha-tocopheryl acetate/kg, or the basal diet plus 2 g Santoquin (6-ethoxy-1,2-dihydro-2,2,4-trimethylquinoline)/kg. After 6 weeks, rats fed the antioxidant-deficient diet produced more of the lipid peroxidation product, pentane, than did the rats fed antioxidants. Partial hepatectomy was performed after six and one-half weeks or ten weeks of feeding the diets. At 3 and 6 days after surgery, pentane production was significantly elevated over pre-surgery levels in rats fed the antioxidant-deficient or vitamin E-supplemented diets, but not in rats fed the Santoquin-supplemented diet. Six days after surgery, there were fewer thiobarbituric acid reactants in regenerating liver of Santoquin-fed rats than of vitamin-E fed rats or antioxidant-deficient rats. There was no increase in the 6-day level of thiobarbituric acid reactants over the 3-day level in livers of rats fed Santoquin, while there was an increase in livers of the antioxidant-deficient and vitamin E-supplemented rats. Liver sulfhydryl levels were higher at 3 and 6 days post surgery in the Santoquin-fed rats than in the antioxidant-deficient or vitamin E-supplemented rats. Plasma gamma-glutamyl-transpeptidase activity was not different among the groups of rats. Between the third and sixth day following surgery, liver regeneration was significantly stimulated in Santoquin-fed, but not vitamin E-fed rats. After 11 days, a stimulatory, but not statistically significant, effect of vitamin E was found. Although DNA content of liver was higher at 6 days than at 3 days post surgery, it was not different among the dietary groups, indicating that cell proliferation rather than hypertrophy had occurred. Partial hepatectomy could have altered the ability of the liver to metabolize pentane, thus explaining part of the increased production of pentane. However, the results obtained support the interpretation that elevated levels of dietary antioxidants can be beneficial in terms of reduced lipid peroxidation and increased rates of liver regeneration following liver surgery.     

Minimum Selenium Requirements Increase When Repleting Second-Generation Selenium-Deficient Rats but Are Not Further Altered by Vitamin E Deficiency

Second-generation selenium-deficient weanling rats fed graded levels of dietary Se were used (a) to study the impact of initial Se deficiency on dietary Se requirements; (b) to determine if further decreases in selenoperoxidase expression, especially glutathione peroxidase 4 (Gpx4), affect growth or gross disease; and (c) to examine the impact of vitamin E deficiency on biochemical and molecular biomarkers of Se status. Rats were fed a vitamin E-deficient and Se-deficient crystalline amino acid diet (3 ng Se/g diet) or that diet supplemented with 100 μg/g all-rac-α-tocopheryl acetate and/or 0, 0.02, 0.05, 0.075, 0.1, or 0.2 μg Se/g diet as Na₂SeO₃ for 28 days. Se-supplemented rats grew 6.91 g/day as compared to 2.17 and 3.87 g/day for vitamin E-deficient/Se-deficient and vitamin E-supplemented/Se-deficient groups, respectively. In Se-deficient rats, liver Se, plasma Gpx3, red blood cell Gpx1, liver Gpx1 and Gpx4 activities, and liver Gpx1 mRNA levels decreased to <1, <1, 21, 1.6, 49, and 11 %, respectively, of levels in rats fed 0.2 μg Se/g diet. For all biomarkers, ANOVA indicated significant effects of dietary Se, but no significant effects of vitamin E or vitamin E × Se interaction, showing that vitamin E deficiency, even in severely Se-deficient rat pups, does not result in compensatory changes in these biochemical and molecular biomarkers of selenoprotein expression. Se requirements determined in this study, however, were >50 % higher than in previous studies that started with Se-adequate rats, demonstrating that dietary Se requirements determined using initially Se-deficient animals can result in overestimation of Se requirements.     

The increase of lipid peroxidation in rat adjuvant arthritis and its inhibition by superoxide dismutase

Adjuvant arthritis was induced in rats by the injection of Mycobacterium tuberculosis, and its severity was scored according to the macroscopic findings of the legs, tail, and ears. The average score so obtained was lower in SOD-injected rats than in the control group. The depression of albumin/globulin ratio was inhibited significantly in rats treated with 10.0 mg/kg of SOD. The levels of acid phosphatase and beta-glucuronidase were elevated after the administration of an adjuvant, and these lysosomal enzymes showed a remarkable increase in the control rats, while the elevation was inhibited in rats injected with 10.0 mg/kg of SOD. The levels of TBA-reactive substances in the sera and synovia were elevated at 2 weeks after the injection of adjuvant and decreased thereafter. In rats injected with 5.0 mg/kg or 10.0 mg/kg of SOD, the increase in both serum and synovial levels of TBA reactants was inhibited significantly. These observations suggest that the aggravation of adjuvant arthritis may be associated with lipid peroxidation due to superoxide, and that SOD may be beneficial for the treatment of arthritis.     

The effect of vitamin E on lipid peroxidation in the copper-deficient rat

The present study was designed to determine whether the supplementation of vitamin E in the copper-deficient diet would ameliorate the severity of copper deficiency in fructose-fed rats. Lipid peroxidation was measured in the livers and hearts of rats fed a copper-deficient diet (0.6 microg Cu/g) containing 62% fructose with adequate vitamin E (0.1 g/kg diet) or supplemented with vitamin E (1.0 g/kg diet). Hepatic lipid peroxidation was significantly reduced by vitamin E supplementation compared with the unsupplemented adequate rats. In contrast, myocardial lipid peroxidation was unaffected by the level of vitamin E. Regardless of vitamin E supplementation, all copper-deficient rats exhibited severe signs of copper deficiency, and some of the vitamin E-supplemented rats died of this deficiency. These findings suggest that although vitamin E provided protection against peroxidation in the liver, it did not protect the animals against the severity of copper deficiency induced by fructose consumption.     

Modulation of platelet thromboxane A2 and arterial prostacyclin by dietary vitamin E

Platelets from vitamin E-deficient and vitamin E-supplemented rats generate the same amount fo thromboxane A₂ (TxA₂) when they are incubated with unesterified arachidonic acid. Platelets from vitamin E-deficient rats produce more TxA₂ than platelets from vitamin E-supplemented rats when the platelets are challenged with collagen. Arterial tissue from vitamin E-deficient rats generates less prostacyclin (PGI₂) than arterial tissue from vitamin E-supplemented rats. The vitamin E effect with arterial tissue is observed when the tissue is incubated with and without added unesterified arachidonic acid. These data show that arterial prostacyclin synthesis is diminished in vitamin E-deficient rats. Vitamin E, $\text{in}$$\text{vivo}$, inhibits platelet aggregation both by lowering platelet TxA₂ and by raising arterial PGI₂.     

Effects of dietary vitamin E supplement on gracile axonal dystrophy (gad) mice

We have studied the effects of dietary vitamin E supplement on the clinical signs and pathological changes in GAD (gracile axonal dystrophy) mice. The control diet contained 2 mg of dl-alpha-tocopheryl acetate (2 I.U.) and vitamin E-supplemented diet contained 58.5 mg of dl-alpha-tocopheryl nicotinate (50 I.U.), per 100 mg of feed. The diet was given to normal (gad/+) and GAD (gad/gad) mice from 21 to 130 days of age. During the feeding, there was no improvement in clinical signs in the GAD mice fed the vitamin E-supplemented diet. The gracile nucleus of the medulla oblongata and the gracile fascicules of the spinal cord were investigated for pathology at 130 days of age, and alpha-tocopherol was also assayed in the serum, liver, brain and spinal cord at that time. There were no pathological differences in the gracile nucleus and fascicules between the GAD mice fed the control and vitamin E-supplemented diet. The alpha-tocopherol levels in the serum and target organs in the control GAD mice were not significantly different from those in control normal mice, showing that GAD mice could absorb and transport alpha-tocopherol. In the supplemented GAD mice, no significant increases in alpha-tocopherol levels were observed in the liver, brain or spinal cord. Particularly, the percentage increase of alpha-tocopherol level in the liver of GAD mice was very low in comparison with that in normal mice, even though the liver can store vitamin E. Thus it may be that the capacity to store vitamin E is lowered in GAD mice. Further studies are needed to investigate in detail the vitamin E metabolism in the mutant mice.     

The effect of vitamin E on the intracellular distribution of the different oxidation states of selenium in rat liver

1. The liver intracellular distribution of (75)Se, (75)Se(2-) and (75)SeO(3) (2-) formed from orally administered Na(2) (75)SeO(3) was studied in rats given four different dietary treatments. 2. Subcellular fractionation was done by using sucrose density gradients in a B XIV zonal centrifuge rotor, and conditions were established so that separation of lysosomal, mitochondrial, smooth- and rough-surfaced endoplasmic reticulum, and soluble fractions was achieved. 3. Marker enzymes acid phosphatase, succinate-2 - p - iodophenyl - 3 - p -nitrophenyl - 5 - phenyltetrazolium reductase and glucose 6-phosphatase were used, together with electron microscopy, to establish the identity of the fractions. 4. The dietary treatments investigated were: (a) vitamin E-deficient diet for 3 months, re-fed with vitamin E during the terminal 5 days; (b) vitamin E-deficient diet; (c) adequate diet; (d) vitamin E- and selenium-deficient diet, re-fed with vitamin E during the terminal 5 days. 5. In adequately fed rats, selenide was particularly associated with the mitochondrial fractions; in vitamin E-deficient rats, little selenide was found and the buoyant density of the mitochondria was increased, whereas re-feeding with vitamin E showed a restoration of the normal pattern. In vitamin E- and selenium-deficient rats, re-fed with vitamin E, there was no tendency for selenide to be localized in the mitochondria. 6. In the microsomal regions of the gradients, adequately fed rats showed a concentration of selenide, particularly in the smooth endoplasmic reticulum fractions, and to a lesser extent in the rough endoplasmic reticulum fractions. This was not observed in vitamin E-deficient rats, and the normal pattern was restored on re-feeding with vitamin E, both in rats given the vitamin E-deficient diet and the vitamin E- and selenium-deficient diet. 7. Some selenide was also found in the soluble fractions, when vitamin E was present, and a substantial proportion of this selenide was found to pass through a dialysis membrane. 8. These results are taken to support our hypothesis that the active form of selenium may be selenide located in non-haem iron-containing proteins, and that the function of vitamin E may be to protect the selenide from oxidation.     

Oxidative stress and antioxidant status in mouse kidney: effects of dietary lipid and vitamin E plus iron

The purpose of this study was to determine the effects of dietary fat, vitamin E, and iron on oxidative damage and antioxidant status in kidneys of mice. Sixty 1-month-old male Swiss-Webster mice were fed a basal vitamin E-deficient diet that contained either 8% fish oil + 2% corn oil or 10% lard with or without 1 g all-rac-alpha-tocopherol acetate or 0.74 g ferric citrate per kilogram of diet for 4 weeks. Significantly (P < 0.05) higher levels of lipid peroxidation products, thiobarbituric acid reactants (TBAR), and conjugated dienes were found in the kidneys of mice fed with fish oil compared with mice fed lard irrespective of vitamin E status. Mice maintained on a vitamin E-deficient diet had significantly higher renal levels of TBAR, but not conjugated dienes, than the supplemented group. Fish oil fed mice receiving vitamin E supplementation had lower levels of alpha-tocopherol than did mice in the lard fed group. Significantly higher levels of ascorbic acid were also found in the kidneys of mice fed with fish oil than were found in mice fed lard. The levels of protein carbonyls and glutathione (GSH), and activities of catalase, superoxide dismutase, selenium (Se)-GSH peroxidase, and non-Se-GSH peroxidase were not significantly altered by dietary fat or vitamin E. Dietary iron had no significant effect on any of the oxidative stress and antioxidant indices measured. The results obtained provide experimental evidence for the pro-oxidant effect of high fish oil intake in mouse kidney and suggest that dietary lipids play a key role in determining cellular susceptibility to oxidative stress.     

Effects of subchronic steroid therapy on vitamin E-deficient rats (38480).

Experiments were carried out to determine the effectiveness of steroid therapy in vitamin E-deficiency, as measured by autohemolysis of isolated RBC's body weight gain, serum creatine phosphokinase activity, and stabilization or labilization of isolated hepatic lysosomes. Results of such experiments would indicate whether triamcinolone acetonide could supplant vitamin E in vitamin E-deficiency states via its ability to stablize various membranes. Autohemolysis induced by vitamin E-deficiency could not be prevented by daily administration of triamcinolone. Daily dosages of 0.1 and 0.4 mg/kg (ip) triamcinolone given concomitantly with replacement vitamin E (at sufficient dosages to reverse the autohemolysis) resulted in an increased autohemolysis. No changes in lysosomal membrane fragility were noted when hepatic lysosomes were obtained from vitamin E-deficient rats with triamcinolone resulted in a greater attenuation of body-weight gain. Creatine phosphokinase levels were not augmented in vitamin E-deficient rats. Vitamin E-deficient rats supplemented with vitamin E and treated with triamcinolone, manifested an increase in creatine, phosphokinase. It was therefore concluded that although triamcinolone and vitamin E possess a common ability to stablize membranes and proteins, their mechanisms must be different since triamcinolone could not substitute for vitamin E in a deficiency state. Indeed, triamcinolone was found to be more toxic in the absence of vitamin E.     

Nephrotoxicity and its prevention by vitamin E in ferric nitrilotriacetate-promoted lipid peroxidation

Iron and aluminum complexes of nitrilotriacetic acid cause severe nephrotoxicity in Wistar rats. In addition, a high incidence of renal cell carcinoma is seen in ferric nitrilotriacetate-treated animals. The present study was performed to see if lipid peroxidation is involved in ferric nitrilotriacetate toxicity. Ferric nitrilotriacetate had more bleomycin-detectable 'free' iron than any ferric salt, while iron complexed with desferrioxamine or ferric chondroitin sulfate had none. The toxicity of ferric nitrilotriacetate in vivo was more pronounced in vitamin E-deficient rats. A thiobarbituric acid-reactive substance was present in the kidneys of vitamin E-deficient rats in amounts markedly elevated compared to vitamin E-sufficient, or vitamin E-supplemented rats. Non-complexed nitrilotriacetate or aluminum nitrilotriacetate did not produce any thiobarbituric acid-reactive substance in vitamin E-sufficient rats died by the 58th day of administration. We suggest that the iron-stimulated production of free radicals leading to lipid peroxidation is the major cause of ferric nitrilotriacetate-mediated renal toxicity. Vitamin E, a known scavenger of free radicals, is effective in protecting against this iron-induced toxicity.     

Effects of vitamin E, ascorbic acid and mannitol on alloxan-induced lipid peroxidation in rats

ω6- and ω3-unsaturated lipid hydroperoxides decompose to yield pentane and ethane, respectively. Alloxan toxicity was studied in rats in relation to pentane and ethane produced during lipid peroxidation induced by intraperitoneal injection of 20 mg of alloxan/100 g body wt. Fifteen minutes after injection, vitamin E-deficient rats exhaled 102- and 11.2-fold more pentane and ethane, respectively, than prior to injection. Injection of 75 mg ascorbic acid/100 g body wt 30 min prior to alloxan treatment prolonged the time over which peroxidation occurred and all vitamin E-deficient rats died before 4 h. Vitamin E-deficient rats injected with 100 mg of the radical scavenger mannitol/ 100 g body wt 30 min prior to alloxan treatment were completely protected against lipid peroxidation, and none of the rats died by 4 h. Rats fed 40 iu dl-α-tocopherol acetate/kg diet or injected with 100 mg dl-α-tocopherol/100 g body wt were either totally protected against alloxan and alloxan-ascorbic acid-induced peroxidation or were only slightly affected as shown by very low-level pentane and ethane production. Thiobarbituric acid reactants in plasma, liver and pancreas 4 h after alloxan treatment reflected the prooxidant nature of ascorbic acid and alloxan, the vitamin E status of the rats and the protective effect of mannitol. Plasma glucose levels 4 h after alloxan injection were lowest in vitamin E-injected rats and highest in vitamin E-deficient rats. Only in vitamin E-deficient rats were both lipid peroxidation and significantly elevated plasma glucose levels observed by 4 h post-alloxan treatment.     

Effects of Fermentation Conditions and Aging Temperature on Volatile Ester Contents in Wine

In these present experiments, rats were fed a low casein, vitamin E and selenium deficient diet and were killed at various time intervals up to the occurrence of massive liver necrosis. Liver malondialdehyde, and liver and serum vitamin E levels were analyzed simultaneously with a pathological investigation of the features of the liver and measurement of serum GOT and GPT activities. These investigations were also performed on control rats given a high casein, vitamin E defincient diet or a low casein, vitamin E supplemented diet.

The results show that the liver malondialdehyde level was not increased concomitant with the decrease in liver and serum vitamin E level nor with the occurrence of massive liver necrosis. Liver cells of the rats fed on the low casein, vitamin E deficient diet showed swelling of the cytoplasm at the initial stage, and progressive centrilobular lipid deposition was observed by Sudan III stain.